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Dependencies: KellerDruck_pressure PID PWM-Coil-driver Sensirion_SF04 VL6180
Fork of TestBenchSerenity-proto_F429ZI by
Diff: main.cpp
- Revision:
- 4:79b23d1fbcd1
- Parent:
- 3:9ff79ea3a294
- Child:
- 5:e3eff8a04b25
--- a/main.cpp Mon Jul 24 15:38:39 2017 +0000 +++ b/main.cpp Wed Jul 26 14:03:10 2017 +0000 @@ -1,5 +1,37 @@ #include "main.h" +//--------------------------- +void dutycycleincrease() +{ + dutycycle=dutycycle+0.01; +} +void dutycycledecrease() +{ + dutycycle=dutycycle-0.01; +} + +void frequencyincrease() +{ + frequency=frequency+1; +} +void frequencydecrease() +{ + frequency=frequency-1; +} +void injectorvalvecontrol(){ + +while(true){ +float openvalue=(((1/frequency)*dutycycle)); +float offvalue=(1/frequency)-openvalue; + +injector.on(); +wait(openvalue); +injector.off(); +wait(offvalue); +} +} + +//----------------------------- void pumpTachTrigger() { pumpTachCounts++; @@ -16,7 +48,7 @@ { pump.period(.001); // 1kHz PWM pump = 0; - ledGrn.period(.001); + //ledGrn.period(.001); InterruptIn pumpTach(pumpTachPin); pumpTach.rise(&pumpTachTrigger); @@ -40,7 +72,7 @@ //PID calculation and set the new output value. pump = pump_control_PID.compute(); //pump = 0.1; - ledGrn = ((float)1.0-pump.read()); + //ledGrn = ((float)1.0-pump.read()); } } @@ -53,7 +85,7 @@ i2c1_m.lock(); timer.reset(); error = pumpPressure.readPT(); - error |= mixerPressure.readPT(); + //error |= mixerPressure.readPT(); int wait = (200 - timer.read_ms()); i2c1_m.unlock(); Thread::wait(wait); @@ -61,7 +93,7 @@ } } -void update_airflow() +void update_flow1() { Timer timer; timer.start(); @@ -69,35 +101,29 @@ while (true) { i2c2_m.lock(); timer.reset(); - error = sfm7033.Measure(FLOW); + error = mainflow.Measure(FLOW); int wait = (200 - timer.read_ms()); i2c2_m.unlock(); Thread::wait(wait); } } -void update_level() +//------------------------------------------------ +void update_flow2() { Timer timer; timer.start(); + char error; while (true) { - i2c1_m.lock(); + i2c3_m.lock(); timer.reset(); - agentlevel = (float)level; - int wait = (1000 - timer.read_ms()); - i2c1_m.unlock(); + error = loopflow.Measure(FLOW); + int wait = (200 - timer.read_ms()); + i2c3_m.unlock(); Thread::wait(wait); } } - -//float get_level() -//{ -// i2c1_m.lock(); -// float value = (float)level; -// i2c1_m.unlock(); -// return value; -//} - +//------------------------------------------------ void print_process_values() { @@ -108,12 +134,12 @@ stdio_m.lock(); timer.reset(); - pc.printf("%.02fkPa %.02fpsi %.02fC %.02fF %02X %.02fkPa %.02fpsi %.02fC %.02fF %02X %.2f%% %.0fRPM %u %.0f %s %.1f %.3f\r\n", - pumpPressure.pressureKPA, pumpPressure.pressurePSI, pumpPressure.temperatureC, pumpPressure.temperatureF, pumpPressure.status, - mixerPressure.pressureKPA, mixerPressure.pressurePSI, mixerPressure.temperatureC, mixerPressure.temperatureF, mixerPressure.status, + pc.printf("%.02fkPa %.02fpsi %.02fC %02X %.2f%% %.0fRPM %u %.0f %s %u %.0f %s %.3f %.02fHz %.02f\r\n", + pumpPressure.pressureKPA, pumpPressure.pressurePSI, pumpPressure.temperatureC, pumpPressure.status, pump.read()*100, pumpRpm, - sfm7033.flow.u16, (((float)sfm7033.flow.i16 / 2) / sfm7033.scaleFactor.u16), sfm7033.flowUnitStr, - (double)pot1*18, ((double)pot2)*pumpMaxPSI);//, agentlevel; + mainflow.flow.u16, (((float)mainflow.flow.i16) / mainflow.scaleFactor.u16), mainflow.flowUnitStr, + loopflow.flow.u16, (((float)loopflow.flow.i16) / loopflow.scaleFactor.u16), loopflow.flowUnitStr, + ((double)pot2)*pumpMaxPSI, frequency, dutycycle);//, agentlevel; int wait = (1000 - timer.read_ms()); stdio_m.unlock(); @@ -121,97 +147,42 @@ } } -void update_lcd() -{ - Timer timer; - timer.start(); - while (true) { - float flow = ((((float)sfm7033.flow.i16 / 2) / sfm7033.scaleFactor.u16) < 0 ? 0 : (((float)sfm7033.flow.i16 / 2) / sfm7033.scaleFactor.u16)); - flow = flow/1000; - stdio_m.lock(); - timer.reset(); - lcd.cls(); - lcd.font((unsigned char*)ArialR12x14); - lcd.locate(0, 0); - lcd.printf("%.2f slpm AA: %.1f", flow, (double)pot1*18); - lcd.locate(0, 14); - lcd.printf("PV: %.1f", pumpPressure.pressurePSI); - lcd.locate(64, 14); - lcd.printf("SV: %.1f", ((double)pot2)*pumpMaxPSI); - int wait = (1000 - timer.read_ms()); - stdio_m.unlock(); - Thread::wait(wait); - } -} - -void update_shutoff() -{ - Timer timer; - timer.start(); - while (true) { - float threshold = 0.1; - timer.reset(); - if((double)pot1 < 0.05) { - shutoff.off(); - //pc.printf("shutoff off\r\n"); - //Thread::wait(1000); - } - if((double)pot1 >= 0.1) { - shutoff.on(); - //pc.printf("shutoff on\r\n"); - //Thread::wait(1000); - } - int wait = (200 - timer.read_ms()); - Thread::wait(wait); - } -} - // main() runs in its own thread in the OS int main() { pump_init(); - ledBlu = 1; + //ledBlu = 1; pc.printf("Serenity Starting up...\n\r"); - /*pc.printf("Pmin: %.03f Pmax: %.03f\r\n", pumpPressure.pmin, pumpPressure.pmax); - pc.printf("Year: %d Month: %d Day: %d Mode: %d\r\n", pumpPressure.year, pumpPressure.month, pumpPressure.day, pumpPressure.mode); - pc.printf("Status: 0x%x\r\n", pumpPressure.getStatus());*/ +//-------------------------------------------- +dutycycleup.rise(&dutycycleincrease); +dutycycledown.rise(&dutycycledecrease); +frequencyup.rise(&frequencyincrease); +frequencydown.rise(&frequencydecrease); - - // Thread to turn shutoff valve on/off - update_shutoff_t.set_priority(osPriorityHigh); - update_shutoff_t.start(update_shutoff); + //Thread to execute injector valve control + Injector_Valve_Control.set_priority(osPriorityHigh); + Injector_Valve_Control.start(injectorvalvecontrol); +//-------------------------------------------- // Thread to poll pressure sensors update_pressures_t.set_priority(osPriorityNormal); - update_pressures_t.start(update_pressures); - - // Thread to poll airflow sensor - update_airflow_t.set_priority(osPriorityNormal); - update_airflow_t.start(update_airflow); + update_pressures_t.start(update_pressures); - // Thread to poll level sensor - //update_level_t.set_priority(osPriorityIdle); - //update_level_t.start(update_level); - - // Thread to update lcd - update_lcd_t.set_priority(osPriorityIdle); - update_lcd_t.start(update_lcd); + // Thread to poll flow sensor + update_flow1_t.set_priority(osPriorityNormal); + update_flow1_t.start(update_flow1); + + //Thread to poll flow sensor + update_flow2_t.set_priority(osPriorityNormal); + update_flow2_t.start(update_flow2); // Thread to send process values to serial port print_process_values_t.set_priority(osPriorityLow); print_process_values_t.start(&print_process_values); while (true) { - //pc.printf("%.02fkPa %.02fpsi %.02fC %.02fF\r\n", pumpPressure.pressureKPA, pumpPressure.pressurePSI, pumpPressure.temperatureC, pumpPressure.temperatureF); - if((double)pot1 >= 0.1) { - injector.on(); - } - //pc.printf("shutoff on\r\n"); - Thread::wait(5); - - injector.off(); - //pc.printf("shutoff off\r\n");*/ - Thread::wait(495); + pump_tach_update(); + } }